Transverse energy production and charged-particle multiplicity at midrapidity in various systems from sqrt{s_{NN}}=7.7 to 200 GeV

A. Adare , S. Afanasiev , C. Aidala , N.N. Ajitanand , Y. Akiba , R. Akimoto , H. Al-Bataineh , J. Alexander

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M. Alfred A. Al-Jamel H. Al-Ta'ani A. Angerami K. Aoki N. Apadula L. Aphecetche Y. Aramaki R. Armendariz S.H. Aronson J. Asai H. Asano E.C. Aschenauer E.T. Atomssa R. Averbeck T.C. Awes B. Azmoun V. Babintsev M. Bai X. Bai G. Baksay L. Baksay A. Baldisseri N.S. Bandara B. Bannier K.N. Barish P.D. Barnes B. Bassalleck A.T. Basye S. Bathe S. Batsouli V. Baublis F. Bauer C. Baumann S. Baumgart A. Bazilevsky M. Beaumier S. Beckman S. Belikov R. Belmont R. Bennett A. Berdnikov Y. Berdnikov J.H. Bhom A.A. Bickley M.T. Bjorndal D. Black D.S. Blau J.G. Boissevain J.S. Bok H. Borel K. Boyle M.L. Brooks D.S. Brown J. Bryslawskyj D. Bucher H. Buesching V. Bumazhnov G. Bunce J.M. Burward-Hoy S. Butsyk S. Campbell A. Caringi P. Castera J.-S. Chai B.S. Chang J.-L. Charvet C.-H. Chen S. Chernichenko C.Y. Chi J. Chiba M. Chiu I.J. Choi J.B. Choi S. Choi R.K. Choudhury P. Christiansen T. Chujo P. Chung A. Churyn O. Chvala V. Cianciolo Z. Citron C.R. Cleven Y. Cobigo B.A. Cole M.P. Comets Z. Conesa del Valle M. Connors P. Constantin N. Cronin N. Crossette M. Csan\'ad T. Cs\"org\H{o} T. Dahms S. Dairaku I. Danchev D. Danley K. Das A. Datta M.S. Daugherity G. David M.K. Dayananda M.B. Deaton K. DeBlasio K. Dehmelt H. Delagrange A. Denisov D. d'Enterria A. Deshpande E.J. Desmond K.V. Dharmawardane O. Dietzsch L. Ding A. Dion P.B. Diss J.H. Do M. Donadelli L. D'Orazio J.L. Drachenberg O. Drapier A. Drees K.A. Drees A.K. Dubey J.M. Durham A. Durum D. Dutta V. Dzhordzhadze S. Edwards Y.V. Efremenko J. Egdemir F. Ellinghaus W.S. Emam T. Engelmore A. Enokizono H. En'yo B. Espagnon S. Esumi K.O. Eyser B. Fadem N. Feege D.E. Fields M. Finger M. Finger Jr. F. Fleuret S.L. Fokin B. Forestier Z. Fraenkel J.E. Frantz A. Franz A.D. Frawley K. Fujiwara Y. Fukao S.-Y. Fung T. Fusayasu S. Gadrat K. Gainey C. Gal P. Gallus P. Garg A. Garishvili I. Garishvili F. Gastineau H. Ge M. Germain F. Giordano A. Glenn H. Gong X. Gong M. Gonin J. Gosset Y. Goto R. Granier de Cassagnac N. Grau S.V. Greene G. Grim M. Grosse Perdekamp Y. Gu T. Gunji L. Guo H. Guragain H.-{\AA}. Gustafsson T. Hachiya A. Hadj Henni C. Haegemann J.S. Haggerty M.N. Hagiwara K.I. Hahn H. Hamagaki J. Hamblen H.F. Hamilton R. Han S.Y. Han J. Hanks H. Harada E.P. Hartouni K. Haruna M. Harvey S. Hasegawa T.O.S. Haseler K. Hashimoto E. Haslum K. Hasuko R. Hayano S. Hayashi X. He M. Heffner T.K. Hemmick T. Hester J.M. Heuser H. Hiejima J.C. Hill R. Hobbs M. Hohlmann R.S. Hollis M. Holmes W. Holzmann K. Homma B. Hong T. Horaguchi Y. Hori D. Hornback T. Hoshino N. Hotvedt J. Huang S. Huang M.G. Hur T. Ichihara R. Ichimiya H. Iinuma Y. Ikeda K. Imai Y. Imazu J. Imrek M. Inaba Y. Inoue A. Iordanova D. Isenhower L. Isenhower M. Ishihara A. Isinhue T. Isobe M. Issah A. Isupov D. Ivanishchev Y. Iwanaga B.V. Jacak M. Javani S.J. Jeon M. Jezghani J. Jia X. Jiang J. Jin O. Jinnouchi B.M. Johnson T. Jones K.S. Joo D. Jouan D.S. Jumper F. Kajihara S. Kametani N. Kamihara J. Kamin S. Kanda M. Kaneta S. Kaneti B.H. Kang J.H. Kang J.S. Kang H. Kanou J. Kapustinsky K. Karatsu M. Kasai T. Kawagishi D. Kawall M. Kawashima A.V. Kazantsev S. Kelly T. Kempel J.A. Key V. Khachatryan P.K. Khandai A. Khanzadeev K.M. Kijima J. Kikuchi A. Kim B.I. Kim C. Kim D.H. Kim D.J. Kim E. Kim E.-J. Kim G.W. Kim H.J. Kim K.-B. Kim M. Kim Y.-J. Kim Y.K. Kim Y.-S. Kim B. Kimelman E. Kinney \'A. Kiss E. Kistenev R. Kitamura A. Kiyomichi J. Klatsky J. Klay C. Klein-Boesing D. Kleinjan P. Kline T. Koblesky L. Kochenda V. Kochetkov M. Kofarago Y. Komatsu B. Komkov M. Konno J. Koster D. Kotchetkov D. Kotov A. Kozlov A. Kr\'al A. Kravitz F. Krizek P.J. Kroon J. Kubart G.J. Kunde N. Kurihara K. Kurita M. Kurosawa M.J. Kweon Y. Kwon G.S. Kyle R. Lacey Y.S. Lai J.G. Lajoie A. Lebedev Y. Le Bornec S. Leckey B. Lee D.M. Lee G.H. Lee J. Lee K.B. Lee K.S. Lee M.K. Lee S Lee S.H. Lee S.R. Lee T. Lee M.J. Leitch M.A.L. Leite M. Leitgab B. Lenzi B. Lewis X. Li X.H. Li P. Lichtenwalner P. Liebing H. Lim S.H. Lim L.A. Linden Levy T. 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Nukariya A.S. Nyanin J. Nystrand C. Oakley H. Obayashi E. O'Brien S.X. Oda C.A. Ogilvie H. Ohnishi H. Oide I.D. Ojha M. Oka K. Okada O.O. Omiwade Y. Onuki J.D. Orjuela Koop J.D. Osborn A. Oskarsson I. Otterlund M. Ouchida K. Ozawa R. Pak D. Pal A.P.T. Palounek V. Pantuev V. Papavassiliou B.H. Park I.H. Park J. Park J.S. Park S. Park S.K. Park W.J. Park S.F. Pate L. Patel M. Patel H. Pei J.-C. Peng H. Pereira D.V. Perepelitsa G.D.N. Perera V. Peresedov D.Yu. Peressounko J. Perry R. Petti C. Pinkenburg R. Pinson R.P. Pisani M. Proissl M.L. Purschke A.K. Purwar H. Qu J. Rak A. Rakotozafindrabe B.J. Ramson I. Ravinovich K.F. Read S. Rembeczki M. Reuter K. Reygers D. Reynolds V. Riabov Y. Riabov E. Richardson T. Rinn N. Riveli D. Roach G. Roche S.D. Rolnick A. Romana M. Rosati C.A. Rosen S.S.E. Rosendahl P. Rosnet Z. Rowan J.G. Rubin P. Rukoyatkin P. Ru\v{z}i\v{c}ka V.L. Rykov M.S. Ryu S.S. Ryu B. Sahlmueller N. Saito T. Sakaguchi S. Sakai K. Sakashita H. Sakata H. Sako V. Samsonov M. 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Towell R. Towell R.S. Towell V-N. Tram I. Tserruya Y. Tsuchimoto T. Tsuji S.K. Tuli H. Tydesj\"o N. Tyurin C. Vale H. Valle H.W. van Hecke M. Vargyas E. Vazquez-Zambrano A. Veicht J. Velkovska R. V\'ertesi A.A. Vinogradov M. Virius B. Voas A. Vossen V. Vrba E. Vznuzdaev M. Wagner D. Walker X.R. Wang D. Watanabe K. Watanabe Y. Watanabe Y.S. Watanabe F. Wei R. Wei J. Wessels S. Whitaker A.S. White S.N. White N. Willis D. Winter S. Wolin C.L. Woody R.M. Wright M. Wysocki B. Xia W. Xie L. Xue S. Yalcin Y.L. Yamaguchi K. Yamaura R. Yang A. Yanovich Z. Yasin J. Ying S. Yokkaichi J.H. Yoo I. Yoon Z. You G.R. Young I. Younus H. Yu I.E. Yushmanov W.A. Zajc O. Zaudtke A. Zelenski C. Zhang S. Zhou J. Zimamyi L. Zolin L. Zou

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keywords sqrtcollisionsmidrapiditydistributionspresentedsystemsenergymultiplicity

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Measurements of midrapidity charged particle multiplicity distributions, $dN_{\rm ch}/d\eta$, and midrapidity transverse-energy distributions, $dE_T/d\eta$, are presented for a variety of collision systems and energies. Included are distributions for Au$+$Au collisions at $\sqrt{s_{_{NN}}}=200$, 130, 62.4, 39, 27, 19.6, 14.5, and 7.7 GeV, Cu$+$Cu collisions at $\sqrt{s_{_{NN}}}=200$ and 62.4 GeV, Cu$+$Au collisions at $\sqrt{s_{_{NN}}}=200$ GeV, U$+$U collisions at $\sqrt{s_{_{NN}}}=193$ GeV, $d$$+$Au collisions at $\sqrt{s_{_{NN}}}=200$ GeV, $^{3}$He$+$Au collisions at $\sqrt{s_{_{NN}}}=200$ GeV, and $p$$+$$p$ collisions at $\sqrt{s_{_{NN}}}=200$ GeV. Centrality-dependent distributions at midrapidity are presented in terms of the number of nucleon participants, $N_{\rm part}$, and the number of constituent quark participants, $N_{q{\rm p}}$. For all $A$$+$$A$ collisions down to $\sqrt{s_{_{NN}}}=7.7$ GeV, it is observed that the midrapidity data are better described by scaling with $N_{q{\rm p}}$ than scaling with $N_{\rm part}$. Also presented are estimates of the Bjorken energy density, $\varepsilon_{\rm BJ}$, and the ratio of $dE_T/d\eta$ to $dN_{\rm ch}/d\eta$, the latter of which is seen to be constant as a function of centrality for all systems.

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